Collision-induced absorption of infrared radiation by N2, O2 and CO2

Collision-induced absorption is of great importance to the overall radiative budget in dense CO 2 -rich atmospheres, but its representation in climate models remains uncertain, mainly due to a lack of accurate experimental and theoretical data. Here we compare several parameterisations of the effect

The mechanism for activation of infrared absorption by N, matrices has been studied. FTIR spectra of isotopically enriched CO, trapped in N, provide new and convincing evidence supporting the hypothesis proposed by Nelander that the activation is electromagnetic in origin for the CO,/N, system. The

Collision-induced absorption (CIA) by CO2 is measured in the 1100-1600 cm-1 range using a Fourier-transform spectrometer with a resolution of 0.5 cm-1. The current measurements, which agree well with previous ones but are more precise, reveal pronounced structures on top of both unresolved Fermi dou

The double vibrational collision-induced absorptions CO(2) (nu(3) = 1) + X(2) (nu(1) = 1) <-- CO(2) (nu(3) = 0) + X(2) (nu(1) = 0), for X(2) = H(2), N(2), and O(2) are studied on the basis of quantum lineshapes computed using isotropic potentials and dipole-induced dipole functions. The linestrength